典型文献
An insight into a novel Mg2InSm prismatic plate in Mg-In-Sm alloy
文献摘要:
Prismatic precipitate platelet is always purposefully designed in the microstructure of magnesium alloys due to its greater contribution to yield stress.In this study,with an introduction of In into Mg-Sm system,a category of novel{10(1)0}α prismatic platelets has replaced thoroughly the traditional β'precipitate formed in magnesium rare earth(Mg-RE)alloys.Herein,the microstructural characteristics of platelet are investigated particularly by atomic scale scanning transmission electron microscopy.It is confirmed that the platelet has a Mg2InSm composition and can maintain a coherent relationship with α-Mg matrix.Importantly,on account of the similarities between In and Mg atoms,the Mg2lnSm prismatic platelet could be structurally categorized as a generalized β"precipitate with a(Mg2In)Sm-type D019 structure when both In and Mg are regarded as an equivalent atom.Thus,the addition of In into Mg-Sm alloy induces the formation of β"precipitate.Furthermore,the formed β"prismatic platelets generally have a large average aspect ratio.The findings are of great significance to construct the effective precipitation strengthening phases and optimize the microstructure of Mg-based alloys.
文献关键词:
中图分类号:
作者姓名:
J.Wang;X.L.Lu;Y.Tian;Q.Y.Huang;H.B.Xie;B.Z.Sun;L.R.Liu
作者机构:
School of Materials Science and Engineering,Northeastern University,Shenyang 110819,China;Key Laboratory for Anisotropy and Texture of Materials,Ministry of Education,Northeastern University,Shenyang 110819,China;School of Materials Science and Engineering,Shenyang University of Technology,Shenyang 110870,China
文献出处:
引用格式:
[1]J.Wang;X.L.Lu;Y.Tian;Q.Y.Huang;H.B.Xie;B.Z.Sun;L.R.Liu-.An insight into a novel Mg2InSm prismatic plate in Mg-In-Sm alloy)[J].材料科学技术(英文版),2022(30):222-230
A类:
Mg2InSm,Prismatic,Mg2lnSm,Mg2In,D019
B类:
An,insight,into,novel,prismatic,precipitate,always,purposefully,designed,microstructure,magnesium,alloys,due,its,greater,contribution,yield,stress,this,study,introduction,system,category,platelets,replaced,thoroughly,traditional,formed,rare,earth,RE,Herein,microstructural,characteristics,investigated,particularly,by,atomic,scale,scanning,transmission,electron,microscopy,It,confirmed,that,composition,maintain,coherent,relationship,matrix,Importantly,account,similarities,between,atoms,could,structurally,categorized,generalized,type,when,both,regarded,equivalent,Thus,addition,induces,formation,Furthermore,generally,have,large,average,aspect,ratio,findings,significance,construct,effective,precipitation,strengthening,phases,optimize
AB值:
0.504927
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